Chest
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Advances in cytokine biology and molecular biology have led to the development of novel immunologic approaches to the treatment of septic shock, ARDS, and MOF. These advances are necessary since improvements in supportive care clearly fall short of the hoped-for reductions in mortality associated with these disorders. As noted in this review, these new therapies are directed at three distinct levels of the inflammatory cascade: (1) the inciting event or insult (eg, endotoxin); (2) the mediators (eg, TNF, IL-1); and (3) the effector cells (eg, neutrophils). ⋯ That is, due to the complexity and redundancy of the inflammatory network, it is doubtful that a "magic bullet" will be found. However, it is also clear that advances in our understanding of the pathogenesis of ARDS, septic shock, and MOF at the molecular level have provided clinicians with powerful weapons with which to do battle. It remains to be seen which ones will work the best.
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Case Reports Comparative Study
Inverse ratio ventilation in ARDS. Improved oxygenation without autoPEEP.
Inverse ratio ventilation and related ventilatory modes (eg, pressure release ventilation) have been applied to patients with the adult respiratory distress syndrome (ARDS) with apparent beneficial effects on arterial oxyhemoglobin saturation. While several mechanisms of improved gas exchange have been postulated, many intensive care physicians believe that the development of occult PEEP (autoPEEP; intrinsic PEEP) leads to the observed rise in oxygen saturation. We report here our findings in a patient whose improved oxygenation on inverse ratio ventilation could not be attributed to autoPEEP.
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Comparative Study
Mixed venous oxygen saturation in critically ill septic shock patients. The role of defined events.
To investigate the frequency and extent of spontaneous changes ("events") in continuously measured mixed venous oxygen saturation (SvO2) in septic patients and to determine whether attention to individual event-frequency offers additional information for patient management. ⋯ The SvO2 of septic shock patients is mainly normal or even supranormal. However, short-term changes in SvO2 do occur frequently in these patients. Nonsurvivors exhibit a higher frequency as well as a significantly greater severity of events, which may point toward a concealed mismatch of oxygen supply and demand. A high incidence of short-term SvO2 changes in a septic shock patient may be of diagnostic and prognostic significance. Therefore, we recommend the installation of a computerized alarm-function for the automatic detection and indication of frequent events.